KR20150058585A - Desalinator with removal water storage - Google Patents

Abstract

Disclosed is an evaporative fresh water generator having a removable fresh water collection unit. According to an embodiment of the present invention, the evaporative fresh water generator having a removable fresh water collection unit comprises: a main evaporation unit which is arranged in a lower portion of the fresh water generator, has an evaporation pipe where cooling water of an engine flows through, and generates steam by heating seawater using the cooling water flowing through the evaporation pipe; a steam flow path which is arranged in an upper side of the main evaporation unit; a condensation unit which has a condenser for condensing steam generated from the main evaporation unit by being arranged in an upper side of the main evaporation unit and connected to the steam flow path; and a fresh water collection unit which collects condensed steam by being positioned in a lower portion of the condensation unit and is capable of being separated from and assembled to the fresh water generator.

Description

[0001] Desalinator with removal water storage [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water purifier capable of producing fresh water from seawater, and more particularly, to an evaporative water purifier having a fresh water collecting part formed in a water purifier and having a detachable structure.

Today, most medium and large sized vessels are equipped with an evaporative water cleaner that evaporates seawater from the evaporator using the cooling water heat of the ship engine to obtain water and fresh water for cooking and condenses evaporated water vapor through a condenser to obtain fresh water.

The fresh water produced by the water purifier is defined to have a salt content of 10 ppm or less and contains very little salt of 5 ppm or less in normal operation.

In addition, since the evaporative water cleaner installed on the ship evaporates the seawater by using the engine heat, a vacuum of about 1/10 of the pressure inside the entire water tank is applied to lower the evaporation temperature. Accordingly, all the spaces except the evaporator and the heat transfer pipe (heat exchanger) of the condenser are sealed with thick steel so as to withstand the vacuum.

Meanwhile, in the conventional fresh water generator, condensed vapor is condensed through the condenser, so that the condensed steam is collected in the fresh water collecting part located at the lower part of the condenser, and the collected fresh water is discharged to the outside through the pipe by the fresh water pump Structure is applied.

However, the fresh water collecting part formed in the conventional evaporative water purifier has a structure that collects fresh water generated by forming a space (receiving part) in the lower part of the condenser. Due to the severe swinging of the vessel, There is a problem that salinity increases or seawater microorganisms flow into the freshwater collection part due to the inflow of seawater into the inside. In addition, not only pollution due to inflow of seawater but also pollution such as water in the fresh water collection part due to long intermittent operation of the water purifier is caused.

However, despite the contamination of the fresh water collection part due to various reasons as described above, the fresh water collection part is integrally sealed with the fresh water generator, so that it is impossible to grasp the degree of contamination of the fresh water collection part as well as to wash it.

Accordingly, there is a need for a structure of a water purifier that can maintain the purity of the fresh water to be generated (collected) by keeping the state of the fresh water collecting portion clean.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems described above, and it is an object of the present invention to provide a fresh water collecting unit, which can be detachably attached to a fresh water generator, to periodically clean the fresh water collecting unit, Thereby providing an evaporative water cleaner.

According to the present invention, there is provided an evaporative water purifier for generating seawater by heating seawater, comprising: an evaporator tube disposed at a lower portion of the water purifier for flowing cooling water of the engine; A water vapor flow path disposed above the main evaporator, a water vapor flow path disposed above the main evaporator and connected to the water vapor flow path to generate water vapor generated from the main evaporator, An evaporative water freshner having a condenser for condensing condensed water and a removable fresh water collector for collecting condensed water vapor located under the condenser and separating and assembling the fresh water collector from the fresh water collector can be provided.

At this time, the fresh water collecting part may be formed of a collecting container in which water vapor condensed by the condenser is collected and accommodated, and a coupling plate formed on one side of the collecting container.

The coupling plate may further include a fresh water outlet connected to the fresh water pump by a pipe, a handle for grasping the fresh water collecting part when the fresh water collecting part is separated and assembled, A penetrating portion can be formed.

The water vapor flow tube is disposed between the main evaporator and the condenser and the water vapor generated from the main evaporator flows. By heating the seawater using the latent heat of the water vapor flowing in the water vapor flow tube, And an auxiliary evaporator for generating an auxiliary evaporator.

At this time, the auxiliary evaporator may include a fresh water collecting unit on the side of the auxiliary evaporator which collects the condensed water vapor discharged from the steam flow tube and can be separated and assembled with the fresh water generator.

The evaporative water freshner having the detachable fresh water collecting part according to an embodiment of the present invention can be easily cleaned periodically since the fresh water collecting part can be separated and assembled from the water generator.

In addition, since it is possible to confirm the degree of contamination of the fresh water collecting part in real time by forming a transparent part capable of monitoring the inside of the fresh water collecting part, the clean state of the fresh water collecting part can be efficiently maintained.

FIG. 1 is a schematic view of an evaporative water cleaner having a detachable fresh water collecting unit according to an embodiment of the present invention. Referring to FIG.
FIG. 2 is a schematic view showing a state in which the fresh water collection section of the evaporative water generator shown in FIG. 1 is separated.
FIG. 3 is a perspective view schematically showing the fresh water collecting part shown in FIG. 1. FIG.
FIG. 4 is a schematic view of an evaporative water cleaner provided with a removable fresh water collection unit according to another embodiment of the present invention.
FIG. 5 is a schematic view showing a separated state of the fresh water collecting part of the evaporative water generator shown in FIG.
FIG. 6 is a view showing a conventional conventional evaporative water heater.

FIG. 1 is a schematic view of an evaporative water generator 100 having a removable fresh water collecting part 122 according to an embodiment of the present invention. FIG. 2 is a schematic view showing a state in which the fresh water collection part 122 of the evaporative water generator 100 shown in FIG. 1 is separated. 3 is a perspective view schematically showing the fresh water collecting part 122 shown in FIG.

1 to 3, an evaporative water generator 100 (hereinafter abbreviated as an evaporative water generator) having a removable fresh water collecting part 122 according to an embodiment of the present invention is disposed below The main evaporator 110 includes a main evaporator 110 and an evaporator 110. The main evaporator 110 is disposed above the main evaporator 110 and the steam S generated by the main evaporator 110 flows. A condenser 120 having a condenser 121 for condensing and liquefying the water vapor S flowing through the steam path 130 and a condenser 120 for condensing the condensed water vapor W in the condenser 120. [ And a fresh water collecting unit 122 for collecting the fresh water.

The main evaporator 110 generates steam S by heating the introduced seawater SW so that the evaporator tube 111 provided in the main evaporator 110 is supplied with high temperature So that the water S can be generated by heating the seawater SW through heat exchange between the cooling water flowing at a high temperature and the seawater SW.

The condenser 120 is provided with a condenser 121 for condensing water vapor S generated in the evaporator 110 and condensing water vapor S therein, The condensed water vapor W is collected in the fresh water collection section 122. At this time, seawater may be used as the refrigerant flowing in the condenser 121.

The fresh water collecting unit 122 is a detachable structure that can be separated from the condensing unit 120. The fresh water collecting unit 122 includes a collecting container 123 for collecting and storing the condensed water vapor W, And an engaging plate 124 formed on the outer wall of the condensing part 120 of the evaporative water generator 100.

At this time, the collecting container 123 may be formed of a metal material, a plastic material, or the like made of stainless steel or titanium alloy having high ease of washing, maintenance of cleanliness, and durability against seawater.

The coupling plate 124 may be formed with a fresh water outlet 125 connected to a fresh water pump (not shown) and a pipe (not shown). The fresh water collecting unit 122 may include a handle (126) may be formed.

The engaging plate 124 may be formed with a transparent portion 127 through which the inside of the collecting container 123 can be observed. At this time, the see-through portion 127 is formed of a transparent material such as glass or transparent plastic, and may be formed to have a thickness or strength enough to withstand the vacuum formed inside the evaporative water generator 100.

The coupling plate 124 may be fixed to the evaporation type water purifier 100 by a fixing means such as a bolt or a screw when the evaporator 130 is coupled with the evaporation water generator 100. In order to seal the interior of the evaporation water generator 100, And a sealing member such as a sealing member.

4 is a schematic view of an evaporative water generator 200 including detachable fresh water collecting units 222 and 232 according to another embodiment of the present invention. FIG. 5 is a view showing a state in which the fresh water collecting units 222 and 232 of the evaporative water generator 200 shown in FIG. 4 are separated.

4 and 5, an evaporative water generator 200 according to another embodiment of the present invention includes a main evaporator 210 disposed below the water generator 200 and having an evaporator 211, An auxiliary evaporator 220 disposed above the main evaporator 210 and having a steam flow tube 221 through which the steam S1 generated by the main evaporator 210 flows, A fresh water collecting part 222 for collecting the fresh water W1 generated in the evaporator 220 and a condenser 231 for condensing and liquefying the steam S2 generated in the auxiliary evaporator 220 And a fresh water collecting unit 232 for collecting the fresh water W2 generated in the condensing unit 230.

The main evaporator 210 and the condenser 230 may be the same as or similar to the main evaporator 110 and the condenser 120 described in the previous embodiment and the fresh water collectors 222 and 232 The structure of the fresh water collecting part 122 may be similar to or the same as the structure of the fresh water collecting part 122 described in the foregoing embodiment, and thus a detailed description thereof will be omitted.

Hereinafter, the auxiliary evaporator 220 added to the structure of the above-described embodiment will be mainly described.

The auxiliary evaporator 220 is disposed above the main evaporator 210 and heats the seawater SW2 flowing into the main evaporator 210 separately from the seawater SW1 flowing into the main evaporator 210, S2. ≪ / RTI >

Specifically, the auxiliary evaporator 220 allows the steam S1 generated in the main evaporator 210 to flow into the steam flow tube 221 provided in the auxiliary evaporator 220, The steam S2 can be generated from the seawater SW2 by heating the seawater SW2 through heat exchange between the water vapor S1 flowing through the flow tube 221 and the seawater SW2.

The condensed water vapor W1 is cooled and condensed through heat exchange with the water vapor S1 flowing through the water vapor flow tube 221 and the seawater SW2 and the condensed water vapor W1 is discharged from the water vapor flow tube 221, And is collected in the fresh water collecting part 222 on the evaporator 220 side.

The steam S2 generated in the auxiliary evaporator 220 flows into the condenser 230 along the steam flow path 240b and is condensed by the condenser 231 to collect the fresh water on the condenser 230 side And is collected in a portion 232.

The evaporative water generator 200 according to another embodiment of the present invention as described above uses the water vapor S1 generated in the main evaporator 210 as a heat source to generate seawater SW2 in the auxiliary evaporator 220, It is possible to reduce the energy required for fresh water production and to generate more fresh water in a limited installation space due to the structure in which a plurality of evaporation chambers are stacked.

As described above, the evaporative water freshner according to an embodiment of the present invention allows the fresh water generated through the fresh water outlet of the fresh water collecting unit to be discharged to the outside by using the fresh water pump during the normal operation, It is possible to separate the fresh water discharge port and the piping and then separate and clean the fresh water collection part from the water purifier, thereby maintaining the cleanliness of the fresh water collection part.

In addition, the degree of contamination of the fresh water collection part can be confirmed in real time through the perspective part that can monitor the inside of the fresh water collection part, so that the degree of cleanliness of the fresh water collection part can be efficiently maintained.

In addition, the fresh water production can be increased without the addition of additional heat source by the auxiliary evaporator.

As described above, the present invention has been explained by the limited embodiments and drawings, but the present invention is not limited to this, and it is possible to use not only the evaporative fresh water generating apparatus using the ship engine heat but also the new and renewable energy such as solar heat, Evaporative desalination apparatus, and large-scale evaporative desalination apparatus. In particular, the present invention can be applied to a marine structure, a book area, a small-area type small fresh water generating apparatus having a limited space, It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents.

100, 200: Evaporative water purifier
110, 210: main evaporator 120, 230: condenser
230: auxiliary evaporator 231: flow tube
130, 240a, 240b: steam flow path 122, 222, 232: fresh water collection section
WS, WS1, WS2: Sea water S, S1, S2: Water vapor
W, W1, W2: Condensed water vapor (fresh water)

Claims (5)

In an evaporative water conditioner for producing fresh water by heating seawater,
A main evaporator disposed at a lower portion of the water generator and having an evaporator tube through which cooling water of the engine flows and generating steam by heating seawater using cooling water flowing through the evaporator tube;
A steam flow path disposed above the main evaporator,
A condenser disposed at an upper side of the main evaporator and connected to the steam flow path to provide a condenser for condensing the steam generated from the main evaporator;
And a fresh water collecting part located below the condenser for collecting condensed water vapor and capable of being separated and assembled with the fresh water generator. The method according to claim 1,
The fresh water collecting unit includes:
A collecting container in which condensed water vapor is collected and accommodated by the condenser, and
And a detachable fresh water collecting part formed by an engaging plate formed on one side of the collecting container. The method of claim 2,
In the coupling plate,
A fresh water outlet connected to the fresh water pump and the pipe,
A handle for gripping the fresh water collecting part when the fresh water collecting part is separated and assembled,
And a detachable fresh water collecting portion having a sight portion for observing the inside of the collecting container from the outside. The method according to claim 1,
And a water vapor flow tube disposed between the main evaporator and the condenser and through which the water vapor generated from the main evaporator flows. The water vapor is generated by heating the seawater using the latent heat of the water vapor flowing in the water vapor flow tube The evaporative water purifier further comprising a detachable fresh water collecting part including an auxiliary evaporating part for supplying the evaporated water. The method of claim 4,
In the auxiliary evaporator,
And a detachable fresh water collecting part including a fresh water collecting part on the side of the auxiliary evaporating part capable of collecting condensed water vapor discharged from the steam flow tube and separating and assembling the fresh water generator.

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